CN103239282A - Vertebral body union internal fixation system - Google Patents

Abstract

The invention provides a vertebral body union internal fixation system which is used for performing internal fixation on a vertebral column. The vertebral body union internal fixation system comprises an artificial vertebral body main body, vertebral body fastening screws, a vertebral body connector, vertebral pedicle screws and a longitudinal connection rod. According to the vertebral body union internal fixation system, the artificial vertebral body main body, an adjacent upper vertebral body and an adjacent lower vertebral body are compactly fixed through the vertebral body fastening screws; fixation and support of vertebral column posterior are achieved through the vertebral pedicle screws and the longitudinal connection rod; and the artificial vertebral body main body and the longitudinal connection rod are compactly connected and fastened through the vertebral body connector. The vertebral body union internal fixation system is used for being inserted to replace resected or deleted parasitic vertebral body sections to enable the physiological height of the vertebral body to be recovered and rebuilt and forming synostosis between the adjacent upper vertebral body and the adjacent lower vertebral body in the future.

Description

Vertebral body associating internal fixation system

Technical field

The present invention relates to orthopaedics and implant the field, more specifically, relate to a kind of for the vertebral body associating internal fixation system that spinal column is carried out internal fixation.

Background technology

In the treatment of human spinal disease, because tumor of spine, tuberculosis and serious fracture often cause vertebral bodies destroyed, may cause the spinal nerves infringement and have to implement the vertebral resection art, spinal column behind the vertebral resection need be rebuild its stability, and this type of disease for the treatment of that appears as of artificial vertebral body replacement provides a kind of comparatively desirable method.Since eighties of last century reported first at end of the sixties vertebral tumor excised and be alternative with prosthese, artificial vertebral body had obtained extensive use clinically as the effective vertebral body substitute of a class.But demonstrating traditional artificial vertebral body in the test of clinical practice and a series of biomechanics remains in some aspects at some problem to be solved is arranged, particularly the stability of axially rotation aspect of postoperative not enough, with the early stage bond strength of last hypocentrum low easily cause the implant displacement in addition deviate from, for the bone amount in bone grafting hole, assurance center cause artificial vertebral body up and down the design area of soleplate dwindle, finally lost ideal height thereby the not enough soleplate that makes artificial vertebral body be absorbed in hypocentrum of support degree is interior.In order to reduce the influence of the problems referred to above, people have to add the nail-plate of implementing preceding road or the way of escape or follow closely excellent fixed system in the hope of the stable of early stage and bone incorporating period is provided in the implantable artificial vertebral body, this has just worsened the mechanical environment of screw in the internal fixation system in the middle of invisible, increase the broken nail probability, and made the artificial vertebral body depression go into the phenomenon aggravation of terminal plate of vertebral body up and down.

Summary of the invention

The object of the invention is to provide a kind of and not only has good immediate postoperative stability but also can take into account long-time stability, can fully recover and continue to keep height, reconstruction spinal stability, facilitating operation, the safe and reliable desirable vertebral body of the vertebral body that substitutes to unite internal fixation system.

For achieving the above object, the present invention takes following design:

A kind of vertebral body associating internal fixation system is characterized in that this vertebral body associating internal fixation system is by artificial vertebral body main body, vertebral body hold-down screw, vertebral body adapter, pedicle screw, vertically pitman is formed; The host vertebral body sections that described artificial vertebral body main body be used for to implant substitutes cut or disappearance with recover and rebuild spinal column physiology height and will future form and neighbouring vertebral body between the bone fusion, pedicle screw is with vertically pitman will be by the fixing and supporting role of operation at spinal column rear side formation spinal column way of escape nail-stick system, the vertebral body adapter is used for artificial vertebral body main body and vertical pitman are interconnected, thereby the artificial vertebral body main body forms closely to be connected and fixed by the vertebral body adapter and by pedicle screw and the vertical formed spinal column way of escape of pitman nail-stick system again when closely fixing by vertebral body hold-down screw and neighbouring vertebral body and finally constitutes vertebral body associating internal fixation system, this vertebral body associating internal fixation system has high anti-rotation and anticreep potential energy power, and postoperative can make spinal column obtain reliably the stable bone fusion that is beneficial to realize as early as possible between artificial vertebral body main body and the neighbouring vertebral body at once.

Described artificial vertebral body main body is a cylindrical body, up and down be provided with the vertebral fusion face, be provided with on vertebral body syndeton, the artificial vertebral body main body at the position between two vertebral fusion faces and also be provided with the bone grafting hole in two ends in the artificial vertebral body main body, behind the implanted predetermined sections of described artificial vertebral body position, the vertebral fusion face will be realized good fit with the soleplate sclerotin of neighbouring healthy vertebral body sections.

Further, the cylindrical body shape of cross section of artificial vertebral body main body is circle, Long Circle, annular, ellipse, fan-shaped, polygon, kidney shape and the graphics shape that formed by above-mentioned graphics combine.

Further, the surface of vertebral fusion face has microcellular structure.

Further, microcellular structure is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected.

Further, the aperture of the hole of microcellular structure is 100 μ m to 1800 μ m.

Further, the artificial vertebral body main body is provided with a plurality of inclinations and passes the vertebral body fixing screw hole that the vertebral fusion face extends up or down, and the vertebral body hold-down screw passes the vertebral body fixing screw hole artificial vertebral body main body and neighbouring host vertebral body sections are connected to a fixed.

Further, the aperture of vertebral body fixing screw hole is 2～10mm.

Further, the inner hole wall of vertebral body fixing screw hole is provided with screw thread, and the pitch of this screw thread is 0.25～5mm.

Further, the artificial vertebral body main body is provided with a plurality of vertebral body syndetons, and the vertebral body syndeton can form firmly mechanical connection closely with the vertebral body adapter.

Further, the vertebral body syndeton on the artificial vertebral body main body is a kind of Screw hole structure, and corresponding vertebral body main body linkage section butt joint forms stable being connected on described Screw hole structure and the vertebral body adapter, and described screw aperture is 1 to 10mm.

Further, the vertebral body syndeton on the artificial vertebral body main body is a kind of embedded structure, and this embedded structure is a groove, and the butt joint that is complementary of the chimeric end shape of corresponding vertebral body main body linkage section forms stable being connected on the groove of this embedded structure and the vertebral body adapter.

Further, the artificial vertebral body main body is provided with the bone grafting hole, and described bone grafting hole number is one or more, mutually connects between a plurality of bone graftings hole or is connected by microcellular structure.

Further, the aperture in bone grafting hole is 2mm to 30mm.

Further, the artificial vertebral body main body is positioned in host's prevertebrate vertebral body physiology surface at its cylindrical surface behind the implant into body.

Further, the surface of artificial vertebral body main body and/or inside are provided with the reinforcement structure.

Further, the artificial vertebral body main body is microcellular structure.

Further, microcellular structure is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected.

Further, the aperture of the hole of microcellular structure is 100 μ m to 1800 μ m.

Further, the metal surface of the microcellular structure of artificial vertebral body main body and vertebral fusion face is coated with hydroxyapatite coating layer.

Further, will to be designed to every 0.5mm～15mm be that a differential gradient increases to adapt to a different patients sexual needs to the height of artificial vertebral body main body.

Described vertebral body adapter is the artificial vertebral body main body and vertically interconnects fixing transmission mechanism between the pitman, vertebral body adapter one end is provided with the vertebral body main body linkage section corresponding with the vertebral body syndeton on the artificial vertebral body main body, and the vertebral body adapter other end is provided with the excellent linkage section corresponding with vertical pitman.

Further, the vertebral body adapter is a rod-like structure, and the shape of cross section of rod-like structure is circle, rectangle, annular and polygon, and rod-like structure one end is provided with vertebral body main body linkage section, and the rod-like structure other end is provided with excellent linkage section.

Further, the vertebral body adapter is a tube-in-tube structure, described tube-in-tube structure is divided into urceolus and interior bar, described urceolus and interior bar peg graft mutually and can pull to change the length of vertebral body adapter, described urceolus one end is provided with vertebral body main body linkage section or excellent linkage section, bar one end is provided with excellent linkage section or vertebral body main body linkage section in described, is provided with locking mechanism between described urceolus and the interior bar.

Further, the vertebral body adapter is double-deck platy structure, described its ground floor of double-deck platy structure is provided with vertebral body main body linkage section, described its second layer of double-deck platy structure is provided with excellent linkage section, can slide to change the length of vertebral body adapter between the ground floor of described double-deck platy structure and the second layer mutually, be provided with locking mechanism between the ground floor of described double-deck platy structure and the second layer.

Further, the vertebral body main body linkage section of vertebral body adapter is a helicitic texture, and the Screw hole structure of the vertebral body syndeton on this helicitic texture and the artificial vertebral body main body connects, and the diameter of thread of this helicitic texture is 1 to 10mm.

Further, the vertebral body main body linkage section of vertebral body adapter is an embedded structure, and the embedded structure of the vertebral body syndeton on this embedded structure and the artificial vertebral body main body connects and forms stable being connected.

Further, the excellent linkage section of vertebral body adapter is through-hole structure, and this through-hole structure can hold vertical pitman and pass therethrough, and this through-hole structure is provided with locking device so that the position relation between through-hole structure self and the vertical pitman is locked.

Further, the excellent linkage section of vertebral body adapter is the open slot structure, and this open slot structure can be held vertical pitman and embed, and this open slot structure is provided with locking device so that the position relation between open slot structure self and the vertical pitman is locked.

Further, described pedicle nail comprises the bone thread section, follows closely structure divisions such as excellent linkage section, lock-screw, and it act as vertebral body and fixing normal sequence and the curvature to keep spinal column of vertical pitman.

Further, described vertical pitman shape of cross section is circle, rectangle, polygon, and vertically pitman cross-sectional diameter or the length of side are 1mm to 12mm.

Further, when symptom was permitted, described artificial vertebral body main body can also only be used the vertebral body hold-down screw to fix and need not use vertebral body adapter, pedicle screw and vertical pitman.

Vertebral body associating internal fixation system of the present invention, its artificial vertebral body main body, vertebral body adapter, pedicle screw, vertically parts such as pitman adopt medical metal and medical macromolecular materials to make, and this class medical material has mostly confirmed the biology performance that it is good through clinical experience for many years.

A kind of operation process of vertebral body associating internal fixation system of the present invention is:

1) taking-up needs replaced impaired host vertebral body sections;

2) the impaired host vertebral body sections position of selecting for use the artificial vertebral body main body of suitable height to pack into and be removed is implanted in the bone grafting hole of artificial vertebral body main body in case of necessity from bone piece and the broken osseous granules of body bone or allograph bone and grows into to induce creeping of following osteocyte;

3) select the vertebral body hold-down screw of suitable diameter and length for use, in the soleplate of vertebral body hold-down screw by two adjacent host health vertebral bodys about the screw-in of the vertebral body fixing screw hole on the artificial vertebral body main body, this moment, two adjacent host health terminal plate of vertebral body will fit tightly by the vertebral fusion face on vertebral body hold-down screw and the artificial vertebral body main body;

4) the spinal column way of escape lay pedicle nail and vertically pitman so that adjacent healthy vertebral body is positioned;

5) the vertebral body adapter is installed, the artificial vertebral body main body is connected the location with vertical pitman of spinal column rear side.

Well-known operation plan has a variety of to the judgement for the treatment of according to patient's concrete condition and patient, do not do more detailed description here.

The artificial vertebral body main body vertebral fusion face of this vertebral body associating internal fixation system fits tightly with the soleplate of two adjacent host health vertebral bodys up and down behind the implanted human body of vertebral body associating internal fixation system, and following osteocyte will be grown into and be stablized the long term that the bone of the microcellular structure on vertebral fusion face surface and the soleplate that forms vertebral body and vertebral fusion face merges to reach the artificial vertebral body main body.

Description of drawings

The accompanying drawing that constitutes the application's a part is used to provide further understanding of the present invention, and illustrative examples of the present invention and explanation thereof are used for explaining the present invention, do not constitute improper restriction of the present invention.In the accompanying drawings:

Fig. 1 is the perspective view according to vertebral body associating internal fixation system user mode of the present invention;

Fig. 2 is according to artificial vertebral body main body embodiment sketch map of the present invention;

Fig. 3 is according to another embodiment sketch map of artificial vertebral body main body of the present invention;

Fig. 4 is the another embodiment sketch map of artificial vertebral body main body according to the present invention;

Fig. 5 is according to artificial vertebral body main body microcellular structure embodiment sketch map of the present invention;

Fig. 6 strengthens structure embodiment sketch map according to artificial vertebral body main body of the present invention;

Fig. 7 is according to vertebral body adapter embodiment sketch map of the present invention;

Fig. 8 is according to another embodiment sketch map of vertebral body adapter of the present invention;

Fig. 9 is the another embodiment sketch map of vertebral body adapter according to the present invention;

Figure 10 is according to a vertebral body adapter of the present invention embodiment sketch map again;

Figure 11 is according to vertebral body associating internal fixation system assembled embodiment sketch map of the present invention;

Figure 12 is according to another assembled embodiment sketch map of vertebral body associating internal fixation system of the present invention;

Figure 13 is that vertebral body associating according to the present invention is interior with the another assembled embodiment sketch map of fixed system;

Figure 14 is according to artificial vertebral body main body microcellular structure embodiment sketch map of the present invention;

Figure 15 is according to another microcellular structure of artificial vertebral body main body embodiment sketch map of the present invention.

The specific embodiment

Describe the present invention below with reference to the accompanying drawings and in conjunction with the embodiments in detail.

As shown in Figure 1 according to vertebral body of the present invention associating internal fixation system, be arranged on and can't normally bring into play the locus that host's vertebra vertebral body that self function is removed carries over owing to tumor, wound, inborn illness are caused, described vertebral body associating internal fixation system comprises artificial vertebral body main body 1, vertebral body hold-down screw 14, vertebral body adapter 2, pedicle screw 31, vertical pitman 32; Wherein artificial vertebral body main body 1 be used for implanting the host vertebral body sections that substitutes cut or disappearance with recover and rebuild spinal column physiology height and will future form and neighbouring healthy vertebral body 4 between the bone fusion, pedicle screw 31 is with vertically pitman 32 will be by the fixing and supporting role of operation traffic stud rod fixed system after the spinal column rear side forms spinal column, should fix with supporting role is the mechanical foundation that anti-rotation and anticreep potential energy power are provided for vertebral body associating internal fixation system, vertebral body adapter 2 is used for artificial vertebral body main body 1 and vertical pitman 32 being interconnected and forming complete mechanical frame, finally constitutes vertebral body associating internal fixation system so that spinal column obtains stable at once reliably.

Unite internal fixation system as Fig. 1, Fig. 2, Fig. 3, vertebral body of the present invention shown in Figure 4, its artificial vertebral body main body 1 is to be made by medical metal, therefore has good biocompatibility.Described artificial vertebral body main body 1 is a cylindrical body, the cylindrical body shape of cross section of artificial vertebral body main body 1 is circular, Long Circle, annular, oval, fan-shaped, polygon, kidney shape and the graphics shape that is formed by above-mentioned graphics combine, two ends up and down in artificial vertebral body main body 1 are provided with vertebral fusion face 10, vertebral body fixing screw hole 11, position between two vertebral fusion faces 10 is provided with vertebral body syndeton 12, also be provided with bone grafting hole 13 on the artificial vertebral body main body 1, behind described artificial vertebral body main body 1 implanted predetermined sections position, vertebral fusion face 10 will be realized good fit with the soleplate sclerotin of neighbouring healthy vertebral body 4 sections.

The microcellular structure 101 that adopts artificial vertebral body main body 1 its vertebral fusion face 10 of the present invention to grow into for ease of osteocyte, the diameter of the hole of microcellular structure 101 are 100 μ m to 1800 μ m.As Figure 14, shown in Figure 15, this microcellular structure 101 is a kind of multidirectional micro hole structure that are interconnected, this hole is conducive to osteocyte creeps and grows into, and it is at a specified future date stable that the vertebral fusion face 10 of postoperative artificial vertebral body main body 1 will merge to reach with the soleplate generation bone of neighbouring host health vertebral body 4.

Preferably, artificial vertebral body main body 1 is made microcellular structure 102 for medical metal, and as Figure 14, shown in Figure 15, surface and the internal void of this microcellular structure 102 connect mutually, hole aperture 100 μ m to the 1800 μ m of microcellular structure 102.

As Fig. 2, Fig. 3, Fig. 4, shown in Figure 12, artificial vertebral body main body 1 is provided with a plurality of inclinations and passes the vertebral body fixing screw hole 11 that vertebral fusion face 10 extends up or down, and artificial vertebral body main body 1 is connected to a fixed with adjacent host vertebral body sections respectively by vertebral body hold-down screw 14.Vertebral body hold-down screw 14 passes vertebral body fixing screw hole 11 artificial vertebral body main body 1 and neighbouring host vertebral body sections is connected to a fixed, because vertebral body fixing screw hole 11 is designed to be tilted to pass to vertebral fusion face 10 by the outer cylinder of artificial vertebral body main body 1, and its head of a nail will sink in artificial vertebral body main body 1 surface after vertebral body hold-down screw 14 is installed and screwed, as shown in Figure 1, thus artificial vertebral body main body 1 its cylindrical surface behind implant into body be positioned at host's prevertebrate vertebral body physiology surface with to reach the effect of so-called zero incisura of medical circle.

As Fig. 2, Fig. 3, shown in Figure 4, artificial vertebral body main body 1 is provided with a plurality of vertebral body syndetons 12, and vertebral body syndeton 12 can form firmly mechanical connection closely with vertebral body adapter 2.

As Fig. 2, Fig. 7, Fig. 8, Figure 11, shown in Figure 12, vertebral body syndeton 12 is a kind of Screw hole structures 121 among a kind of embodiment of artificial vertebral body main body 1, corresponding vertebral body main body linkage section 21 set screw thread 211 butt joints form stable being connected on described Screw hole structure 121 and the vertebral body adapter 2, and the aperture of described Screw hole structure 121 is 1 to 10mm.

Another embodiment according to artificial vertebral body main body 1, as Fig. 3, Fig. 5, Fig. 9, Figure 10, shown in Figure 13, described vertebral body syndeton 12 is a kind of embedded structures 122, and corresponding vertebral body main body linkage section 21 set chimera 212 butt joints form stable being connected on this embedded structure 122 and the vertebral body adapter 2.

As Fig. 7, Fig. 8, Fig. 9, shown in Figure 10, the vertebral body adapter 2 of vertebral body associating internal fixation system of the present invention is provided with vertebral body main body linkage section 21 and excellent linkage section 22, vertebral body main body linkage section 21 will with artificial vertebral body main body 1 on vertebral body syndeton 12 dock to form stable being connected, excellent linkage section 22 will be connected and form locking with vertical pitman 32.

As Fig. 7, shown in Figure 8, the vertebral body main body linkage section 21 of vertebral body adapter 2 is provided with helicitic texture 211, and the Screw hole structure 121 of the vertebral body syndeton 12 on this helicitic texture 211 and the artificial vertebral body main body 1 cooperates butt joint to form stable being connected.

As Fig. 9, shown in Figure 10, the vertebral body main body linkage section 21 of vertebral body adapter 2 is provided with chimera 212, and the embedded structure 122 of the vertebral body syndeton 12 on this chimera 212 and the artificial vertebral body main body 1 cooperates butt joint to form stable being connected.

As shown in Figure 7, vertebral body main body linkage section 21 and the excellent linkage section 22 of vertebral body adapter 2 are overall structure, in use can adjust the distance of locating between artificial vertebral body main body 1 and the vertical pitman 32 by the depth of regulating the Screw hole structure 121 on the helicitic texture 211 screw-in artificial vertebral body main bodys 1.

As shown in Figure 8, the vertebral body main body linkage section 21 of vertebral body adapter 2 is the split tube-in-tube structure with excellent linkage section 22, described split tube-in-tube structure is divided into urceolus 24 and interior bar 25, described urceolus 24 peg graft mutually with interior bar 25 and can pull to change the length of vertebral body adapter 2, described urceolus 24 is located at excellent linkage section 22 1 sides, bar 25 is located at vertebral body main body linkage section 21 1 sides in described, is provided with length adjustment mechanism 23 between described urceolus 24 and the interior bar 25; Bar 25 is located at excellent linkage section 22 1 sides and also is considered to feasible in described otherwise described urceolus 24 is located at vertebral body main body linkage section 21 1 sides.Vertebral body main body linkage section 21 and excellent linkage section 22 in use can be adjusted the distance of locating between artificial vertebral body main bodys 1 and the vertical pitman 32 by governor motion 23 by length adjustment mechanism 23 definite mutual position relations.

As Fig. 9, shown in Figure 10, the vertebral body main body linkage section 21 of vertebral body adapter 2 is the double-deck platy structure of split with excellent linkage section 22, described its ground floor of double-deck platy structure is provided with vertebral body main body linkage section 21, described its second layer of double-deck platy structure is provided with excellent linkage section 22, can slide to change the length of vertebral body adapter between the ground floor of described double-deck platy structure and the second layer mutually, be provided with length adjustment mechanism 23 between the ground floor of described double-deck platy structure and the second layer.Vertebral body main body linkage section 21 and excellent linkage section 22 in use can be adjusted the distance of locating between artificial vertebral body main bodys 1 and the vertical pitman 32 by governor motion 23 by length adjustment mechanism 23 definite mutual position relations.

As shown in Figure 9, the excellent linkage section 22 of vertebral body adapter 2 is provided with through-hole structure 221, this through-hole structure 221 can hold vertical pitman 32 and pass therethrough, this through-hole structure be provided with locking device 2213 with to through-hole structure 221 self and vertically the relation of the position between the pitman 32 lock.

As Fig. 7, Fig. 8, shown in Figure 10, the excellent linkage section 22 of vertebral body adapter 2 is provided with open slot structure 223, this open slot structure 223 can be held vertical pitman 32 and embed, and this open slot structure 223 is provided with locking device 2233 and locks so that open slot structure 223 self and the vertical position between the pitman 32 are concerned.

Artificial vertebral body main body 1 is microcellular structure 102 among a kind of embodiment as shown in Figure 5, and the hole aperture of microcellular structure 102 is 100 μ m to 1800 μ m.

The surface of artificial vertebral body main body 1 and/or inside are provided with and strengthen structure 15 as shown in Figure 6.

Artificial vertebral body main body 1 is provided with bone grafting hole 13 among the embodiment as shown in Figure 4, the quantity in bone grafting hole 13 is one or more, mutually connect between a plurality of bone graftings hole 13 or be connected by microcellular structure 102, this bone grafting hole 13 can hold from body or allograph bone piece and osseous granules, be implanted in this bone grafting hole 13 before the art or in the art can play to induce osteocyte to creep and grow into from body or allograph bone piece and osseous granules and promote the effect that bone merges, 13 apertures, bone grafting hole are 2mm to 30mm, to make things convenient for implanting from body or allograph bone piece and osseous granules of different-diameter.

For the needs that postoperative induces osteocyte to grow into, artificial vertebral body main body 1 is coated with hydroxyapatite coating layer with the microcellular structure 101 of vertebral fusion face 10 and 102 metal surface.

The processing method of vertebral body associating internal fixation system has two comparatively ideal machining paths:

The processor that A, each parts data of vertebral body associating internal fixation system that adopts the numerical control machine tool foundation to generate in computer convert to carries out machine-shaping, use the processing of methods such as spark machined, chemical attack, machine drilling cutting to bore then and mill out needed bone grafting hole, screw hole and micropore, hold-down screw then adopts turning or mills and wait the making of conventional mechanical processing method;

B, utilize laser sintered or rapid shaping technique melt molding such as high-power electron beam fusion, concrete grammar is as follows:

A) use professional software that the vertebral body associating internal fixation system parts three-dimensional data model of design-build in computer is carried out layering, to obtain the outline data of a series of monolayer slices;

B) import above-mentioned serial synusia data to laser or high-power electron beam rapid forming equipment;

The medical metal powder of floor height respective thickness when c) in laser or high-power electron beam rapid forming equipment processing cabin, laying with aforementioned three-dimensional data model layering;

D) by computer controlled controlling laser beam or high-power electron beam the medical metal powder is scanned and selectively the fusing;

E) repeat aforementioned laying powder, scanning fusing step so that the mutual clinkering of material of the selected fusing of each layer becomes whole;

F) finish the vertebral body associating internal fixation system parts that the powder of removing not fusion behind the melting process of whole aspects can obtain required shape and structure;

G) owing to needed entity, bone grafting hole, screw hole, micropore etc. structure has been designed in the lump in data file when building vertebral body associating internal fixation system parts three-dimensional data model, therefore above-mentioned various structures are finished manufacturing with disposable in laser sintered or high-power electron beam melting process;

H) hydroxyapatite coating layer can obtain by pyrolytic coating or electrochemical deposition.

The above is the preferred embodiments of the present invention only, is not limited to the present invention, and for a person skilled in the art, the present invention can have various changes and variation.Within the spirit and principles in the present invention all, any modification of doing, be equal to replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (26)

1. vertebral body associating internal fixation system is characterized in that this vertebral body associating internal fixation system is by artificial vertebral body main body (1), vertebral body adapter (2), pedicle screw (31), vertically pitman (32) is formed.

2. vertebral body associating internal fixation system according to claim 1 is characterized in that described artificial vertebral body main body (1) is a cylindrical body, is provided with vertebral fusion face (10) in two ends up and down in artificial vertebral body main body (1).

3. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that the position between described two vertebral fusion faces (10) is provided with vertebral body syndeton (12).

4. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that, the surface of described vertebral fusion face (10) has microcellular structure (101), and described microcellular structure (101) is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected.

5. vertebral body associating internal fixation system according to claim 4 is characterized in that the aperture of the hole of described microcellular structure (101) is 100 μ m to 1800 μ m.

6. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that described artificial vertebral body main body (1) is provided with a plurality of inclinations and passes the vertebral body fixing screw hole (11) that vertebral fusion face (10) extends up or down.

7. vertebral body associating internal fixation system according to claim 6 is characterized in that the aperture of described vertebral body fixing screw hole (11) is 2～10mm.

8. vertebral body associating internal fixation system according to claim 6 is characterized in that the inner hole wall of described vertebral body fixing screw hole (11) is provided with screw thread, and the pitch of this screw thread is 0.25～5mm.

9. according to the described vertebral body associating of claim 1 and claim 2 internal fixation system, it is characterized in that it is Screw hole structure (121) that described artificial vertebral body main body (1) goes up the vertebral body syndeton (12) that arranges, the aperture of described Screw hole structure (121) is 1 to 10mm.

10. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that it is embedded structure (122) that described artificial vertebral body main body (1) goes up the vertebral body syndeton (12) that arranges.

11. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that, described artificial vertebral body main body (1) is provided with bone grafting hole (13), described bone grafting hole (13) quantity is at least one, mutually connect between the bone grafting hole (13) or be connected by microcellular structure, the aperture of bone grafting hole (13) is 2mm to 30mm.

12. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that, described artificial vertebral body main body (1) is microcellular structure (102), described microcellular structure (102) is the multidirectional micro hole structure that comprises a plurality of micropores that are interconnected, and the aperture of the hole of this microcellular structure (102) is 100 μ m to 1800 μ m.

13., it is characterized in that the surface of described artificial vertebral body main body (1) and/or inside are provided with strengthens structure (105) according to claim 1 and the described vertebral body associating of claim 2 internal fixation system.

14. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that the cylindrical body shape of cross section of described artificial vertebral body main body (1) is circle, Long Circle, annular, ellipse, fan-shaped, polygon, kidney shape and the graphics shape that formed by above-mentioned graphics combine.

15. according to claim 1 and the described vertebral body associating of claim 2 internal fixation system, it is characterized in that the metal surface of the microcellular structure (101) on the microcellular structure (102) on the described artificial vertebral body main body (1) and vertebral fusion face (10) is coated with hydroxyapatite coating layer.

16. vertebral body associating internal fixation system according to claim 1 is characterized in that described vertebral body adapter (2) is rod-like structure, the shape of cross section of vertebral body adapter (2) is circle, ellipse, rectangle, annular and polygon.

17. according to claim 1 and the described vertebral body associating of claim 16 internal fixation system, it is characterized in that, one end of described vertebral body adapter (2) is provided with the vertebral body main body linkage section (21) corresponding with the vertebral body syndeton (12) on the artificial vertebral body main body (1), and described vertebral body adapter (2) other end is provided with the excellent linkage section (22) corresponding with vertical pitman (32).

18. according to claim 16 and the described vertebral body associating of claim 17 internal fixation system, it is characterized in that, described vertebral body main body linkage section (21) is provided with helicitic texture (211), the Screw hole structure (121) of the vertebral body syndeton (12) on this helicitic texture (211) and the artificial vertebral body main body (1) connects, and the diameter of thread of this helicitic texture (211) is 1 to 10mm.

19. vertebral body associating internal fixation system according to claim 1, it is characterized in that, described vertebral body adapter (2) is the split tube-in-tube structure, described split tube-in-tube structure is divided into urceolus (24) and interior bar (25), described urceolus (24) can be pegged graft mutually with interior bar (25), described urceolus (24) one ends are provided with vertebral body main body linkage section (21) or excellent linkage section (22), bar (25) one ends are provided with excellent linkage section (22) or vertebral body main body linkage section (21) in described, are provided with length adjustment mechanism (23) between described urceolus (24) and the interior bar (25).

20. vertebral body associating internal fixation system according to claim 19, it is characterized in that, the vertebral body main body linkage section (21) of described vertebral body adapter (2) is provided with helicitic texture (211), the Screw hole structure (121) of the vertebral body syndeton (12) on this helicitic texture (211) and the artificial vertebral body main body (1) connects, and the diameter of thread of this helicitic texture (211) is 1 to 10mm.

21. vertebral body associating internal fixation system according to claim 1, it is characterized in that, described vertebral body adapter (2) is the double-deck platy structure of split, its platy structure ground floor of described vertebral body adapter (2) is provided with vertebral body main body linkage section (21), its platy structure second layer of described vertebral body adapter (2) is provided with excellent linkage section (22), is provided with length adjustment mechanism (23) between the ground floor of its platy structure of described vertebral body adapter (2) and the second layer.

22. vertebral body associating internal fixation system according to claim 21, it is characterized in that, the vertebral body main body linkage section (21) of described vertebral body adapter (2) is provided with helicitic texture (211), the Screw hole structure (121) of the vertebral body syndeton (12) on this helicitic texture (211) and the artificial vertebral body main body (1) connects, and the diameter of thread of this helicitic texture (211) is 1 to 10mm.

23. vertebral body associating internal fixation system according to claim 21, it is characterized in that, the vertebral body main body linkage section (21) of described vertebral body adapter (2) is provided with chimera (212), the butt joint that matches of the embedded structure (122) of the vertebral body syndeton (12) on this chimera (212) and the artificial vertebral body main body (1).

24. according to claim 16,17,19,21 described vertebral body associating internal fixation systems, it is characterized in that, the excellent linkage section (22) of described vertebral body adapter (2) is provided with through-hole structure (221), this through-hole structure (221) can hold vertical pitman (32) and pass therethrough, and this through-hole structure is provided with locking device (2213).

25. according to claim 16,17,19,21 described vertebral body associating internal fixation systems, it is characterized in that, the excellent linkage section (22) of described vertebral body adapter (2) is provided with open slot structure (223), this open slot structure (223) can be held vertical pitman (32) and embed, and this open slot structure (223) is provided with locking device (2233).

26. vertebral body associating internal fixation system according to claim 1 is characterized in that, described vertebral body associating internal fixation system is made by medical metal and/or medical macromolecular materials.

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